The Solvers

When solving a Multiphysics problem it is necessary to ensure that the solvers behave correctly. It is especially important to check if a model is solved or in a way. COMSOL has built in logic to handle most multiphysics problems when the predefined multiphysics couplings are used ensuring that the model solves correctly. If many physics or couplings are added at the same time this logic can fail and manual settings should be performed. For large models COMSOL generates Iterative Solver Suggestions (see below).

	See Introduction to Solvers and Studies and Solution Operation Nodes and Solvers in the COMSOL Multiphysics Reference Manual.

It is also possible to enable and disable both physics and couplings from within a Study Step. This can be done in the section in . This functionality can be used to solve a model both coupled and uncoupled by adding two : one where the Multiphysics coupling is active and one where it has been deactivated.

Multiphysics models can in 3D easily grow rapidly in size and become difficult to solve with a direct solver, simply because you run out of RAM. In this case it can be necessary to switch to an iterative solver approach. For most multiphysics couplings iterative solver suggestions are automatically generated. Set up a new solver configuration (first time the model is solved) or right click the study node and select , then expand the tree under or . The predefined iterative solver suggestions that are automatically generated can be seen here. In the predefined cases a direct solver is used as default and iterative solvers are suggested and disabled. To turn on one of these approaches right-click the solver and select (or press F4). Examples of predefined suggestions exist for:

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, gives one iterative solver suggestion. The suggestion depends on which physics are coupled with the multiphysics coupling. Different suggestions are given when coupling acoustics to shell/membrane and solid. The suggestion will also be different depending on if the acoustics interface is based on the FEM or BEM formulation.

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, generates two suggestions. The first is fast and can save 20% of memory while the second that uses domain decomposition (DD) is very robust and memory lean.

All solver suggestions have a tag that makes it possible to see which physics feature that has generated them, for example, (asb1) means that the suggestion comes from the Acoustic-Structure Boundary 1 feature.

When a multiphysics model is solves in the time domain it is important to update the section of the acoustics interface (and structural interfaces if present) used in the model. The time stepping settings generated by these settings will also be applied to the coupled problem when a couplings is used.